Trenching attachment mounting method

ABSTRACT

A system for removably mounting a trenching attachment to hook and eye mounts on an end of a power unit. The trenching attachment includes a mounting frame having hook-engaging shafts and eye-engaging pins, a head drive assembly, a trenching boom assembly pivotally mounted to the head drive assembly, and a hydraulic boom cylinder for raising and lowering the boom assembly with respect to the mounting frame. With the boom assembly supported in a three-point stance adjacent the power unit, the cylinder is actuated in a first direction to rotate the mounting frame with respect to the boom assembly, and engage the shafts with the mounting frame hooks. Further actuation of the cylinder in the first direction rotates the mounting frame with respect to the boom assembly and power unit until the mounting frame pins are adjacent the mount eyes. A grease cylinder on the mounting frame is actuated to extend the pins and engage the mount eyes. The trenching boom assembly can then be raised off the ground by actuating the cylinder in a second direction. Four sets of hook and eye mounts are located at equally spaced and laterally separated positions on the end of the power unit permitting the trenching attachment to be mounted at either centerline, partial offset or full offset trenching positions. When in the full offset position the trenching boom assembly is aligned with a side of the power unit. An auger and auger shaft located on the same side of the power unit as the boom assembly can be removed to permit trenching adjacent a structure.

This is a division of application Ser. No. 394,375, filed Aug. 15, 1989.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to trenching machines. Inparticular, the present invention is directed to a mount for removablymounting a trencher attachment to a power unit, and to a method forusing the mount.

2. Description of the Prior Art

A variety of different types of trenchers including walk-behind,walk-beside and riding units are in widespread use. Extensive trenchingoperations and those carried out in tough soil conditions are oftenperformed using riding trenchers. Trenchers of this type generally havea trenching attachment which is removably mounted to a power unit.

Models T135 and T136 BOBCAT trenchers manufactured and sold by theMelroe Company of Fargo, N. Dak. are fully hydrostatic machines.Separate trenching attachments mounted at different locations on theback of the power unit are used for centerline and offset trenching withthe BOBCAT trenchers. In the center position, the trenching chainextends rearwardly from the center of the power unit. In the offsetposition the trenching chain extends rearwardly from the center of thepower unit tires. It is therefore not possible to trench directlyadjacent a structure. The trenching attachment itself is heavy andawkward, requiring the use of a lift mechanism to position theattachment with respect to the power unit so that it can be bolted on.These procedures are inefficient and time-consuming.

Still other known trencher designs such as the DlTCH WlTCH Models 2300and 4010 have a head drive with two sprockets, one positioned forcenterline trenching, and the other positioned for offset trenching. Thetrenching boom can be moved to either position. It is, however, atime-consuming process to move the boom.

Hook and eye attachment mounting systems are generally known anddisclosed, for example, in the VME Americas Inc. ad on pp 60-61 of theAug. 15, 1988 issue of Construction Equipment, and the Bauer U.S. Pat.No. 3,732,996. These mounting systems include a pair of laterally ortransversely spaced hooks mounted to the attachment above or below acorresponding pair of laterally spaced eyes. The hooks are engaged withcorresponding bar members on the loader, while slidably mounted pins onthe loader engage the eyes of the attachment. A pair of hydrauliccylinders are sometimes used to extend and retract the mounting pinswith respect to the eyes. It is also known to mount the hooks and eyesto the loader, and have the bars and pins on the attachment.

There is a continuing need for improved trencher mounting systems. Thesesystems should be versatile and convenient to use.

SUMMARY OF THE INVENTION

The present invention is a trencher which includes a power unit havingforward and rearward ends, a trencher attachment removably attached tothe power unit, and three or more mounts on an end of the power unit.The trencher attachment includes a mounting frame having two laterallyspaced mount-engaging members and a boom assembly mounted to themounting frame. The mounts are positioned at equally spaced andlaterally separated positions on the power unit, and receive themount-engaging members of the mounting frame. The system is versatilesince it permits the trencher attachment to be mounted to the power unitat one of two or more laterally spaced positions.

In one embodiment each mount includes a lower mount member and an uppermount member. The mount-engaging members on the trenching attachmentinclude lower mount member-engaging portions and upper mountmember-engaging portions. To conveniently mount the trenching attachmentto the power unit, the power unit is moved to a position next to theattachment while the attachment is supported on the ground. The lowermount member-engaging portions of the mounting frame are positionedadjacent to the lower mount members of the power unit. A cylinder on thetrencher attachment is actuated in a first direction to rotate themounting frame with respect to the boom assembly, and engage the lowermount members of the power unit with the lower mount member-engagingportions of the mounting frame. Further actuation of the cylinder in thefirst direction rotates the mounting frame with respect to the boomassembly and the power unit, and engages the upper mount members of thepower unit with the upper mount member-engaging portions of the mountingframe. The trenching boom assembly can then be raised off the ground byactuating the cylinder in a second direction. The trenching attachmentcan be conveniently removed from the power unit in a similar manner byreversing the order of these steps and the directions that the cylinderis actuated.

In one embodiment the mounts on the power unit include eyes positionedabove hooks. The mount-engaging members in the mounting frame includeeye-engaging pin portions and hook-engaging shaft portions. A greasecylinder on the mounting frame can be actuated to extend and retract thepin portions.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an illustration of a trencher in accordance with the presentinvention with the trenching boom assembly in a lowered work position.

FIG. 2 is an illustration of the trencher shown in FIG. 1 with thetrenching boom assembly in a raised travel position.

FIG. 3 is a top view of the trencher shown in FIG. 1 with the trenchingattachment mounted to a position on the power unit for centerlinetrenching.

FIG. 4 is a top view of the trencher shown in FIG. 1 with the trenchingattachment mounted to a position on the power unit for partial offsettrenching.

FIG. 5 is a top view of the trencher shown in FIG. 1 with the trenchingattachment mounted to a position on the power unit for full offsettrenching.

FIG. 6 is a detailed exploded view of the trenching attachment shown inFIG. 1.

FIG. 7 is a sectional view of the head drive assembly of the trenchingattachment.

FIG. 8 is a detailed sectional view of the planetary gear reductionmechanism.

FIG. 9 is a detailed side view of a portion of the trenching attachment.

FIG. 10 is a detailed top view of a portion of the trenching attachment.

FIG. 11 is a detailed exploded view of the auger assembly.

FIG. 12 is a detailed sectional view of the grease cylinder.

FIGS. 13-14 are side views of the trencher illustrating the trenchingattachment supported on the ground in a manner from which it can bemounted to and removed from the power unit.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

A trencher 10 in accordance with the present invention is illustratedgenerally in FIGS. 1-5. As shown, trencher 10 includes a trenchingattachment 12 which can be removably mounted to a power unit 14. In oneembodiment power unit 14 is a conventional hydrostatic drive vehiclehaving a frame 16 supported for over-the-ground travel by a pair offront wheels 18 and a pair of rear wheels 20. An engine and hydrostaticpump (not separately shown) are mounted to frame 16 in enginecompartment 22 toward the front of power unit 14. An operator controlspower unit 14 and trenching attachment 12 from an operator's compartment24 which is positioned behind engine compartment 22. In the embodimentshown power unit 14 also includes a roll-over protective structure 26adjacent seat 28 at the rear of the vehicle, and an attachment such asbackfill blade 30 mounted to the front of the power unit.

Trenching attachment 12 includes head drive assembly 32, boom assembly34, mounting frame 36 and auger assembly 38. Mounting frame 36 is usedto secure trenching attachment 12 to hook and eye mounts 40 which arewelded to frame 16 at transversely spaced locations on the rear of powerunit 14. Each mount 40 includes an eye 42 (upper mount member) and anassociated upwardly opening hook 44 (lower mount member) below the eye.As shown in FIGS. 3-5, four mounts 40 are positioned at equally spacedtransverse locations across the rear of power unit 14. As will bedescribed in greater detail below, this permits trenching attachment 12to be mounted to power unit 14 at a number of positions.

As perhaps best shown in FIGS. 6 and 7, mounting frame 36 includes amounting plate or bracket 50, cylinder uprights 52 and 54, mounting bar56 and mounting grease cylinder 58. Mounting bracket 50 is a generallyflat member adapted to engage the rear surface of power unit 14 adjacentmounts 40. The opposite ends of mounting bar 56 function as lower mountmember-engaging portions. Mounting grease cylinder 58 is secured to anupper edge of mounting bracket 50 in a transverse orientation between apair of bushings 60 and uprights 52 and 54. A pair of eye engaging pins224 (upper mount member-engaging portions) are extended and retracted byoperation of grease cylinder 58 in a manner described below to mounttrenching attachment 12 to power unit 14. As shown in FIG. 7, an outeredge of left bushing 60 is positioned adjacent the left edge of mountingbracket 50, while the right edge of the right bushing 60 is positionedadjacent an aperture 64 which is sized to receive one of mount eyes 42.

Cylinder uprights 52 and 54 extend upwardly from mounting bracket 50.The cylinder body of hydraulic boom lift cylinder 66 is pivotallyattached to the upper end of cylinder uprights 52 and 54 between a pairof bushings 68. A circular mounting bracket 70 is formed in the loweredge of cylinder upright 52. Cylinder upright 54 also has a circularmounting bracket 71 formed in its lower edge. Mounting bar 56 is weldedto a lower edge of mounting bracket 50 in a transverse orientationparallel to mounting pins 224 of grease cylinder 58. As shown in FIGS.3-5, 7, 9 and 10, the lower edge of mounting bracket 50 slopes towardboom assembly 34 from mounting bar 56, and has its opposite corners 72tapered in a downwardly converging manner from the sides of the mountingbracket. Corners 72 of mounting bracket 50 thereby function as guides toproperly position mounting bar 56 in hooks 44 of mounts 40.

Head drive assembly 32 includes a hydrostatic motor 76, flywheel 78,planetary reduction gear assembly 80 and trenching chain drive sprocket82, all of which are coaxially positioned with respect to one anotherabout axis 84. Flywheel 78 is attached to drive shaft 86 of hydraulicmotor 76 by nut 88, and is mounted within flywheel housing 90 and motormounting cover 92. Hydraulic motor 76, which is coupled to thehydrostatic pump in engine compartment 22 (FIG. 1) by hydraulic hoses77, is secured to motor mounting cover 92 by bolts 94. Motor shield 98and motor mounting cover 92 are secured to flywheel housing 90 by tenbolts 96. Five of bolts 96 (every other one) extend through cylinderupright 52 to mount head drive assembly 32 to mounting frame 36. Asshown, flywheel housing 90 is a generally tubular member which has afirst boom pivot channel 100 of reduced diameter.

Flywheel 78 is connected to planetary reduction gear assembly 80 byinternal gear adapter 102 and external gear shaft 104. Gear adapter 102is fastened to flywheel 78 by bolts 106.

As shown in FIGS. 7 and 8, planetary reduction gear assembly 80 includesinternal ring gear 110 and three planet gears 112 rotatably mounted toplanet carrier 114. Ring gear 110 is bolted between flywheel housing 90and boom pivot housing 118 by ten bolts 116. Ten additional bolts 116spaced between the other ten bolts 116 extend through cylinder upright54 into boom pivot housing 118 to secure head drive assembly 32 tomounting frame 36. Geared end 120 of shaft 104 functions as a sun gearin gear assembly 80 and rotates planet gears 112 and planet carrier 114with respect to fixed ring gear 110.

The rotational motion of planet carrier 114 is coupled to trencher chaindrive sprocket 82 by flanged output shaft 122. Output shaft 122 issupported within boom pivot housing 118 by a pair of bearings 124.Planet carrier 114 is spline connected to one end of output shaft 122,while sprocket 82 is mounted to flange 128 on a second end of the outputshaft by bolts 126. As shown in FIG. 7, boom pivot housing 118 is agenerally elongated tubular member which includes a second boom pivotchannel 130.

Boom assembly 34 can be described with reference to FIGS. 1-2, 6 and9-10. Boom assembly 34 is a welded unit pivotally mounted to head driveassembly 32. As shown, boom assembly 34 includes an elongated cross tube132 and a pair of mounting brackets 129 and 131 secured to opposite endsof the tube at spaced apart locations. A fixed boom tube 134 is weldedto and extends rearwardly from bracket 131. A crumber tube 136 ismounted to cross tube 132 by means of brace 138, bracket 140 and shield142. As shown, crumber tube 136 is spaced from but generally parallel toboom tube 134. Mounting bracket 129 is fit within channel 100 offlywheel housing 90 and pivotally secured thereto by bracket 146 andbolts 148. Similarly, mounting bracket 131 is pivotally mounted withinchannel 130 of housing 118 by bracket 150 and bolts 152. The piston ofhydraulic boom lift cylinder 66 is mounted to brackets 129 and 154 bypivot pin 156. Boom lift cylinder 66 is coupled to the hydraulic pumpthrough a control valve (not shown) and actuated to raise and lower boomassembly 34 with respect to head drive assembly 32 as shown in FIGS. 1and 2. Boom tube 134 is aligned with sprocket 82.

An extensible idler arm or boom tube 160 having an idler wheel 162pivotally mounted on its free end is mounted within boom tube 134 fortelescopic movement. Fixed boom tube 134 and extensible boom tube 160both have a plurality of chain guides 164 mounted to and extending fromtheir upper and lower sides. Trenching chain 166 having a plurality ofteeth or cutters 168 mounted thereto extends around drive sprocket 82,idler Wheel 162 and auger assembly 38. Guides 164 support and guidechain 166 as it is driven by sprocket 82. The relative position of boomtubes 134 and 160 with respect to one another, and thereby the tensionon chain 166, is adjusted by means of a grease cylinder (not shown)mounted within and having its opposite ends connected to the boom tubes.A crumber 170 is mounted to crumber tube 136 by a telescoping tubemember 172. The length of boom assembly 134 can be changed bytelescoping boom tube 160 to different lengths and adding or removing anappropriate number of links from chain 166. The position of crumber 170can be adjusted accordingly by repositioning tube 172 with respect tocrumber tube 136.

Auger assembly 38, which is perhaps best shown in FIGS. 3-5, 6, 9 and11, includes a sprocket mounting assembly 180 mounted by bolts 184 atone of several longitudinally spaced positions to a bracket 182 on thelower side of boom tube 134. Sprocket 186 is rotatably mounted withinassembly 180 and is engaged by chain 166. An auger shaft 196 havingflange 190 on one end thereof extends through sprocket 186 and assembly180. Flange 190 is positioned on the right side of boom assembly 34. Ashort flanged auger shaft 192 is mounted to flange 190 on the right sideof auger assembly 38. Bolts such as 198 are used to fasten auger shaft192 to flange 190.

Augers 200 (formed by auger blades on tubes) are bolted to auger shafts192 and 196 by bolts such as 202. Auger shafts 192 and 196 have aplurality of bolt receiving holes 204 spaced along their length. Augers200 can thereby be adjustably mounted to auger shafts 192 and 196 at aplurality of positions. Auqer shaft 192 can also be completely removedfrom flange 190, and auger assembly 38 adjustably positioned along thelength of boom tube 134, as will be described in greater detail below.

Grease cylinder 58 can be described in greater detail with reference toFIGS. 7 and 12. Grease cylinder body 210 is a cylindrical unit having acenter grease-receiving port 212 and a pair of outer grease-receivingports 214 spaced from the center port. Ports 212 and 214 are fitted withzerks 215 in the embodiment shown. A center grease bleed screw 217 and apair of outer grease bleed screws 216 are also mounted to cylinder body210. Ports 212 and 214 and bleed screws 216 and 217 communicate with acavity 220 in which a pair of pistons 218 are mounted for movement. Eachpiston 218 is connected to a first end of a rod 222 which extends fromthe respective pistons toward opposite ends of cavity 220. Mounting pins224 are mounted to the ends of rods 222 opposite pistons 218. Pistons218 are sealed within cavity 220 by end caps 226 and seals 228.

Pins 224 are extended by opening bleed screws 216, closing bleed screw217, and pumping grease (a fluid) into zerk 215 on center port 212.After mounting pins 224 are fully extended (as shown in broken lines inFIG. 12) bleed fittings 216 are closed to lock pistons 218 into place.Mounting pins 224 are retracted by opening bleed screw 217 and pumpinggrease into zerks 215 on ports 214. Screws 217 are closed when mountingpins 214 are retracted to lock pistons 218 in position.

Trencher attachment 12 can be quickly and conveniently mounted to andremoved from power unit 14 in a manner described with reference to FIGS.2 and 13-14. To remove trencher attachment 12 from power unit 14 thetrencher attachment is lowered from a raised or travel position shown inFIG. 2 to the lowered position shown in FIG. 13. In the lowered positiontrencher attachment 12 is supported in a tripod-like arrangement with anauger support 240 engaged with and supporting each auger 200, and theportion of chain 166 adjacent idler wheel 162 resting on the ground.Hydraulic hoses 77 coupling hydraulic motor 76 to the hydrostatic pumpare then disconnected. After trencher attachment 12 is supported on theground grease is pumped through outer zerks 215 of grease cylinder 58 toretract mounting pins 224 from eyes 42 of mounts 40. Further retractionof the piston rod into boom lift cylinder 66 will cause bar 56 to liftout of hooks 44 as mounting frame 36 is rotated away from the back ofpower unit 14. Trencher attachment 12 will remain supported on theground by the three point stance provided by supports 240 and chain 166.Finally, hydraulic hoses (not shown) to boom lift cylinder 66 can thenbe disconnected and power unit 14 driven away.

Trenching attachment 12 can be mounted to power unit 14 from its threepoint stance in a similarly convenient manner. This is done by backingpower unit 14 to a position adjacent mounting frame 36. Hydraulic hosesto boom lift cylinder 66 are then coupled to power unit 14, and thecylinder actuated to rotate bar 56 into engagement with hooks 44 ofbrackets 40. Corners 72 of bracket 50 guide bar 56 into hooks 44.Further actuation of boom lift cylinder 66 will rotate mounting frame 36to such an extent that pins 224 of grease cylinder 58 will be alignedwith eyes 42. Pins 224 are then extended by pumping grease into centerzerk 215. Following the interconnection of hydraulic hoses 77 tohydraulic motor 76, trencher attachment 12 can be operated in aconventional manner.

As previously discussed, mounts 40 are positioned at equally spacedlocations across the rear of power unit 12. In the embodiment shown inFIGS. 3-5 four mounts 40 are positioned on the rear of power unit 14.Trencher attachment 12 can thereby be mounted in its center trenchingposition shown in FIG. 3, a half offset position shown in FIG. 4, or afull offset position shown in FIG. 5. When trenching attachment 12 is inthe full offset position trenching chain 160 extends rearward inalignment with the outer edge of rear tires 20. Auger shaft 192 andassociated auger 200 can be removed when trenching attachment 12 is inits full offset position to permit trenching close to a structure.

Chain 160 and cutters 168 can also be set up to dig trenches ofdifferent widths. To accommodate the differing spoils handling needs forthese set ups of cutters 168, augers 200 can be positioned atappropriate locations on auger shafts 192 and 196 by inserting bolts 202in the desired hole 204. In general, augers 200 will be positioned onthe inner ends of shafts 192 and 196 for narrow cutter setups, and onthe outer ends of the shafts for wider set ups.

Auger assembly 38 can be mounted to one of a number of positions atfixed increments along trencher boom tube 34. This is done by insertingbolts 184 through the selected holes in bracket 182 when mountingsprocket assembly 180 to boom tube 134. Auger assembly 38 can thereby bequickly and conveniently positioned at the optimum location with respectto ground irrespective of the trenching angle of attachment 12.

Although the present invention has been described with reference topreferred embodiments, workers skilled in the art will recognize thatchanges may be made in form and detail without departing from the spiritand scope of the invention. By way of example, the invention can also beconfigured with the hook and eye mounts on the mounting frame of theattachment rather than on the power unit.

What is claimed is:
 1. For use with a trencher of the type including atrenching attachment having a mounting frame with upper mountmember-engaging portions and lower mount member-engaging portions andremovably mounted to mounts having upper and lower mount members on anend of a power unit, a trenching boom assembly pivotally mounted withrespect to the mounting frame, and a cylinder for raising and loweringthe boom assembly with respect to the frame; a method for attaching thetrenching attachment to the power unit, including:supporting thetrenching attachment on the ground; moving the power unit to a positionnext to the trenching attachment with the lower mount member-engagingportions of the mounting frame adjacent the lower mount members of thepower unit; actuating the cylinder in a first direction to rotate themounting frame with respect to the boom assembly; engaging lower mountmembers of the power unit with the lower mount member-engaging portionsof the mounting frame; further actuating the cylinder in the firstdirection to rotate the mounting frame with respect to the boom assemblyand the power unit; engaging the upper mount members of the power unitwith the upper mount member-engaging portions of the mounting frame; andactuating the cylinder in a second direction to raise the trenching boomassembly off the ground.
 2. The method of claim 1 wherein:the trenchingattachment further includes a pair of augers extending from the boomassembly; and the step of supporting the trenching attachment includespositioning a pair of supports under the augers and supporting thetrenching attachment in a three-point stance with the supports under theaugers and the boom assembly on the ground.
 3. The method of claim 1 andfurther including a method for removing the trenching attachment fromthe power unit, including:actuating the cylinder in the first directionto lower and support the trenching boom assembly with respect to theground; disengaging the upper mount member-engaging portions of themounting frame from the upper mount members of the power unit; actuatingthe cylinder in the second direction to rotate the mounting frame withrespect to the boom assembly and power unit; disengaging the lower mountmember-engaging portions of the mounting frame from the lower mountmembers of the power unit; and moving the power unit away from thetrenching attachment.
 4. The method of claim 3 wherein:the trenchingattachment further includes a pair of augers extending from the boomassembly; and the method further includes positioning a pair of supportsunder the augers to support the trenching attachment in a three-pointstance with the augers supported by the supports and the boom assemblyresting on the ground.
 5. For use with a trencher of the type includinga trenching attachment removably mounted to hook and eye mounts on anend of a power unit and the trenching attachment having a mounting framewith a hook-engaging shaft and eye-engaging pins, a trenching boomassembly pivotally mounted with respect to the mounting frame, and acylinder for raising and lowering the boom assembly with respect to theframe, a method for attaching the trenching attachment to the powerunit, including:supporting the trenching attachment on the ground withthe hook-engaging shaft at a height greater than the height of hooks ofthe mounts on the power unit; moving the power unit to a position nextto the trenching attachment with the shaft and pins of the mountingframe adjacent the hook and eye mounts of the power unit; actuating thecylinder in a first direction to rotate the mounting frame with respectto the boom assembly and engage the shaft in the hooks of the mounts onthe power unit; further actuating the cylinder in the first direction torotate the mounting frame with respect to the boom assembly and rotatethe mounting frame with respect to the power unit about thehook-engaging shaft to align the eye-engaging pins of the mounting framewith the eyes of the mount on the power unit; extending the eye-engagingpins of the trenching attachment mounting frame into the eyes of themount on the power unit; and actuating the cylinder in a seconddirection to raise the trenching boom assembly off the ground.
 6. Themethod of claim 5 wherein:the trenching attachment further includes apair of augers extending from the boom assembly; and the step ofsupporting the trenching attachment includes positioning a pair ofsupports under the augers and supporting the trenching attachment in athree-point stance with the supports under the augers and the boomassembly on the ground.
 7. The method of claim 5 and further including amethod for removing the trenching attachment from the power unit,including:actuating the cylinder in the first direction to lower andsupport the trenching boom assembly with respect to the ground;retracting the eye-engaging pins of the mounting frame from the eyes ofthe mount on the power unit; actuating the cylinder in the seconddirection to rotate the mounting frame with respect to the boom assemblyand power unit until the hook-engaging shaft of the mounting frame isdisengaged from the hook of the mount on the power unit; and moving thepower unit away from the trenching attachment.
 8. The method of claim 7wherein:the trenching attachment further includes a pair of augersextending from the boom assembly; and the method further includespositioning a pair of supports under the augers to support the trenchingattachment in a three-point stance with the augers supported by thesupports and the boom assembly resting on the ground.
 9. For use with atrencher of the type including a trenching attachment removably mountedto hook and eye mounts on an end of a power unit and the trenchingattachment having a mounting frame with hook-engaging shaft portions andeye-engaging pin portions, a trenching boom assembly pivotally mountedwith respect to the mounting frame, and a cylinder for raising andlowering the boom assembly with respect to the frame; a method forremoving the trenching attachment from the power unit,including:actuating the cylinder in a first direction to lower andsupport the trenching boom assembly with respect to the ground;retracting the eye-engaging pin portions of the mounting frame from eyesof the mount on the power unit; actuating the cylinder in a seconddirection to rotate the mounting frame with respect to the boom assemblyand power unit until the hook-engaging shaft portions of the mountingframe are disengaged from the hook of the mount on the power unit; andmoving the power unit away from the trenching attachment.
 10. The methodof claim 9 wherein:the trenching attachment further includes a pair ofaugers extending from the boom assembly; and the method further includespositioning a pair of supports under the augers to support the trenchingattachment in a three-point stance with the auger supported by thesupports and the boom assembly resting on the ground.